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Merrow M Franchi L Dragovic Z Görl M Johnson J Brunner M Macino G Roenneberg T 《The EMBO journal》2001,20(3):307-315
FREQUENCY (FRQ) is a critical element of the circadian system of Neurospora. The white collar genes are important both for light reception and circadian function. We show that the responsiveness of the light input pathway is circadianly regulated. This circadian modulation extends to light-inducible components and functions that are not rhythmic themselves in constant conditions. FRQ interacts genetically and physically with WHITE COLLAR-1, and physically with WHITE COLLAR-2. These findings begin to address how components of the circadian system interact with basic cellular functions, in this case with sensory transduction. 相似文献
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The filamentous fungus Neurospora crassa is a model organism for the genetic dissection of blue light photoreception and circadian rhythms. WHITE COLLAR-1 (WC-1) and WC-2 are considered necessary for all light responses, while FREQUENCY (FRQ) is required for light-regulated asexual development (conidia formation); without any of the three, self-sustained (circadian) rhythmicity in constant conditions fails. Here we show that light-regulated and self-sustained development occur in the individual or mutant white collar strains. These strains resemble wild type in their organization of the daily bout of light-regulated conidiation. Molecular profiles of light- induced genes indicate that the individual white collar-1 and white collar-2 mutants utilize distinct pathways, despite their similar appearance in all aspects. Titration of fluence rate also demonstrates different light sensitivities between the two strains. The data require the existence of an as-yet-unidentified photoreceptor. Furthermore, the extant circadian clock machinery in these mutant strains supports the notion that the circadian system in Neurospora involves components outside the WC-FRQ loop. 相似文献
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ZEITLUPE encodes a novel clock-associated PAS protein from Arabidopsis 总被引:27,自引:0,他引:27
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The circadian system of Neurospora crassa includes a molecular feedback loop that is entrainable by light. A recent study has shown that a second, elusive oscillator interacts with the feedback loop to drive output rhythms. 相似文献
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Phosphorylation of FREQUENCY protein by casein kinase II is necessary for the function of the Neurospora circadian clock
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FREQUENCY (FRQ), a key component of the Neurospora circadian clock, is progressively phosphorylated after its synthesis. Previously, we identified casein kinase II (CKII) as a kinase that phosphorylates FRQ. Disruption of the catalytic subunit of CKII abolishes the clock function; it also causes severe defects in growth and development. To further establish the role of CKII in clock function, one of the CKII regulatory subunit genes, ckb1, was disrupted in Neurospora. In the ckb1 mutant strain, FRQ proteins are hypophosphorylated and more stable than in the wild-type strain, and circadian rhythms of conidiation and FRQ protein oscillation were observed to have long periods but low amplitudes. These data suggest that phosphorylation of FRQ by CKII regulates FRQ stability and the function of the circadian feedback loop. In addition, mutations of several putative CKII phosphorylation sites of FRQ led to hypophosphorylation of FRQ and long-period rhythms. Both CKA and CKB1 proteins are found in the cytoplasm and in the nucleus, but their expressions and localization are not controlled by the clock. Finally, disruption of a Neurospora casein kinase I (CKI) gene, ck-1b, showed that it is not required for clock function despite its important role in growth and developmental processes. Together, these data indicate that CKII is an important component of the Neurospora circadian clock. 相似文献